Fabrication of flame‐retardant wood plastic composites based on wasted bean dregs with recycled PE via mechanochemical crosslinking

Abstract: Fabricating wood‐plastic composites (WPCs) using recycled plastic and wasted biomass materials is one of the effective approaches to alleviate the global energy crisis and reduce carbon emission. However, the unsatisfactory mechanical properties and fire safety hazards significantly limit the application of WPCs. Herein, recycled high density polyethylene (R‐PE), bean dregs and intumesce flame retardant (IFR) were melt‐blended into flame‐retardant WPC by mechanochemical crosslinking. The results show that the … Show more

“…Nowadays, wood–plastic composites (WPCs), as versatile materials that combined the merits of both wood and polymers, have captured various attention for their outstanding properties, including biodegradability, favorable mechanical properties, competitive cost, and dimensional stability. − Hitherto, WPCs with a high wood flour content of over 60% have been employed in various applications such as the outdoor construction, transportation, and packaging decoration. , However, the high flammability of wood flour and plastics is prone to trigger fire hazards, which severely restricts its applications in various fields. , In the past years, the halogen-based flame retardants had released toxic or corrosive gases during combustion, leading to the increasing environmental issues. − Therefore, it is significant to develop a green flame retardant with high performance that is halogen free and has low smoke in the field of WPCs.…”

High-Performance Wood–Plastic Composites Based on Self-Assembly Sandwich-Like 2D/2D MMT/Zn²⁺-MEL-PA Supramolecular Structure: Enhanced Mechanical and Flame-Retardant Properties

“…Nowadays, wood–plastic composites (WPCs), as versatile materials that combined the merits of both wood and polymers, have captured various attention for their outstanding properties, including biodegradability, favorable mechanical properties, competitive cost, and dimensional stability. − Hitherto, WPCs with a high wood flour content of over 60% have been employed in various applications such as the outdoor construction, transportation, and packaging decoration. , However, the high flammability of wood flour and plastics is prone to trigger fire hazards, which severely restricts its applications in various fields. , In the past years, the halogen-based flame retardants had released toxic or corrosive gases during combustion, leading to the increasing environmental issues. − Therefore, it is significant to develop a green flame retardant with high performance that is halogen free and has low smoke in the field of WPCs.…”

High-Performance Wood–Plastic Composites Based on Self-Assembly Sandwich-Like 2D/2D MMT/Zn²⁺-MEL-PA Supramolecular Structure: Enhanced Mechanical and Flame-Retardant Properties

Development of sustainable cellulose‐based composite of polypropylene reinforced by recycled microfibrillar poly (ethylene terephthalate)

Sustainable engineering polymer composites fabricated using delignified bamboo fiber as reinforcement and walnut shell powder as filler